The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammator ....The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammatory or allergic disease, such as arthritis or asthma. This team of researchers from the Hanson Institute in Adelaide, combining expertise in molecular and cell biology, protein chemestry, structual biology and animal models, has been working together for over 10 years, investigating the molecular mechanisms involved in controlling the formation and activities of blood vessels and white blood cells. This program seeks to further that understanding, and to develop drugs that have the potential of ameliorating the inflammatory condition.Read moreRead less
Developmental Aspects Of Respiratory Inflammation, Allergy And Asthma
Funder
National Health and Medical Research Council
Funding Amount
$7,169,609.00
Summary
Asthma develops as a complex series of interactions between genetic susceptibility and environmental exposures occurring in early life. While many children grow out of asthma others do not and develop the chronic form of the disease that persists into adult life. Our research involves understanding why some susceptible children develop asthma and why this becomes chronic in some. We will undertake studies in children to find out how and why this occurs. A major part of our studies involve longit ....Asthma develops as a complex series of interactions between genetic susceptibility and environmental exposures occurring in early life. While many children grow out of asthma others do not and develop the chronic form of the disease that persists into adult life. Our research involves understanding why some susceptible children develop asthma and why this becomes chronic in some. We will undertake studies in children to find out how and why this occurs. A major part of our studies involve longitudinal studies in cohorts of children recruited before birth. Having the ability to study children as they grow and develop conditions such as allergies and asthma allows us to understand why these conditions occur and allow us to predict which children are likely to develop them. Our research Program also has a solid focus on Translational Research, in which we will use the findings from our basic science studies to develop and test new methods of preventing and of treating asthma. These studies will include new methods for preventing the development of allergies, preventing the damage done to the lungs by severe viral respiratory infections in early life and better methods of treating established allergic asthma by improving immunotherapy techniques. By its very nature, primary prevention of disease in young children is controversial and raises some interesting questions. As part of this Program we intend to initiate consultation and debate in public, academic, regulatory and industry circles. An important role for our Program is shifting the current emphasis away from treatment of established disease towards preventing disease occurring. This is the best way to decrease the health, social and economic burden of chronic diseases such as asthma.Read moreRead less
Novel Therapeutic Strategies To Reduce The Burden Of Chronic Heart Failure
Funder
National Health and Medical Research Council
Funding Amount
$4,928,323.00
Summary
The broad aims of the Program are to develop novel strategies in the prevention and treatment of chronic heart failure. This will involve investigating new targets for pharmacological therapies, evaluating whether common co-morbid disease states such as diabetes alter the efficacy of these therapies and investigating the role of stem-cell therapy in this setting. The Program will also evaluate the contribution of non-heart failure drugs to the burden of heart failure, determine the impact of rur ....The broad aims of the Program are to develop novel strategies in the prevention and treatment of chronic heart failure. This will involve investigating new targets for pharmacological therapies, evaluating whether common co-morbid disease states such as diabetes alter the efficacy of these therapies and investigating the role of stem-cell therapy in this setting. The Program will also evaluate the contribution of non-heart failure drugs to the burden of heart failure, determine the impact of rurality on prescribing for this condition and explore systems of optimising delivery of best practice to the community. This research formalises the existing collaborative efforts of a team of investigators that span all aspects of research into the therapeutics of CHF from basic laboratory research to evaluation of patients in clinical trials and public health translational aspects of this condition. The Chief Investigators and Principal Investigators have an existing successful research collaboration which will be greatly expanded via Program.Read moreRead less
To study the genetic alterations that give rise to cancer. In particular, exploring how too little death of cells can lead to a tumour. If too few cells in a tissue die, a tumour may develop there. The team is exploring how the cell death process is normally controlled. They plan to characterise the molecules inside cells that determine whether a cell lives or dies and hope that better understanding of those molecules will help to explain how tumours arise. It could also lead to new drugs that c ....To study the genetic alterations that give rise to cancer. In particular, exploring how too little death of cells can lead to a tumour. If too few cells in a tissue die, a tumour may develop there. The team is exploring how the cell death process is normally controlled. They plan to characterise the molecules inside cells that determine whether a cell lives or dies and hope that better understanding of those molecules will help to explain how tumours arise. It could also lead to new drugs that can kill tumour cells more effectively by directly triggering the normal death switch of the cell.Read moreRead less
Many new therapies are being developed to treat stroke and prevent its recurrence. While a number of these have been successfully introduced, there is a puzzling gap between evidence of efficacy in animal models and humans. One of the main reasons may be lack of an integrated approach between the basic sciences and clinical researchers. By assembling a team with skills in both areas and a structure to maximise communication between groups this team plan to incrementally introduce new therapies i ....Many new therapies are being developed to treat stroke and prevent its recurrence. While a number of these have been successfully introduced, there is a puzzling gap between evidence of efficacy in animal models and humans. One of the main reasons may be lack of an integrated approach between the basic sciences and clinical researchers. By assembling a team with skills in both areas and a structure to maximise communication between groups this team plan to incrementally introduce new therapies into clinical practice.Read moreRead less
This program, run by an established team with skills in public health, clinical epidemiology, biostatistics, health economics and behavioural science addresses the under-researched issues of whether, when and how to use medical tests. The elements of the program follow the sequence in which testing is often done: for screening (early detection), for diagnosis on which to base treatment decisions, and for monitoring the effects of treatment. A common approach throughout is the identification of t ....This program, run by an established team with skills in public health, clinical epidemiology, biostatistics, health economics and behavioural science addresses the under-researched issues of whether, when and how to use medical tests. The elements of the program follow the sequence in which testing is often done: for screening (early detection), for diagnosis on which to base treatment decisions, and for monitoring the effects of treatment. A common approach throughout is the identification of the benefits and harms of testing and assessing their trade-off; how benefits weigh up against harms. This research is relevant to all partners in healthcare, (consumers, clinicians and policy-makers), who currently are being tested or using tests without being fully informed about the accuracy and effects of these tests.Read moreRead less
To understand the genetic basis of two of the most important cancers in women, breast and ovarian cancer. The team has already identified one gene that confers a very high risk of breast cancer and may account for a large proportion of 'familial' breast cancer. Their aim is to identify additional predisposition genes and to determine their normal function in the cell, as well as the way in which they contribute to the development of cancer
THE INTERFACE BETWEEN INNATE AND ADAPTIVE IMMUNITY
Funder
National Health and Medical Research Council
Funding Amount
$4,905,420.00
Summary
Allergic disorders including asthma are amongst the most prevalent diseases in Australia afflicting up to 25% of the population and costing the Australian Government in excess of $600 million annually. This program aims to understand the molecular and cellular mechanisms controlling airway inflammation, focusing on the cross-talk between scavenger cells at airway surfaces and circulating cells of the immune system. These studies will combine sophisticated mouse models of airway inflammation in t ....Allergic disorders including asthma are amongst the most prevalent diseases in Australia afflicting up to 25% of the population and costing the Australian Government in excess of $600 million annually. This program aims to understand the molecular and cellular mechanisms controlling airway inflammation, focusing on the cross-talk between scavenger cells at airway surfaces and circulating cells of the immune system. These studies will combine sophisticated mouse models of airway inflammation in the laboratory with clinical investigation and analysis of human tissue. Understanding these processes will translate into better treatments for patients suffering from life-threatening allergy and asthma.Read moreRead less